| blob | 31807fec59d9cc528bd26b3f646030a2104890c0 |
1 /* Conditional constant propagation pass for the GNU compiler.
2 Copyright (C) 2000, 2001, 2002, 2003, 2004 Free Software Foundation, Inc.
3 Adapted from original RTL SSA-CCP by Daniel Berlin <dberlin@dberlin.org>
4 Adapted to GIMPLE trees by Diego Novillo <dnovillo@redhat.com>
6 This file is part of GCC.
8 GCC is free software; you can redistribute it and/or modify it
9 under the terms of the GNU General Public License as published by the
10 Free Software Foundation; either version 2, or (at your option) any
11 later version.
13 GCC is distributed in the hope that it will be useful, but WITHOUT
14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
16 for more details.
18 You should have received a copy of the GNU General Public License
19 along with GCC; see the file COPYING. If not, write to the Free
20 Software Foundation, 59 Temple Place - Suite 330, Boston, MA
21 02111-1307, USA. */
23 /* Conditional constant propagation.
25 References:
27 Constant propagation with conditional branches,
28 Wegman and Zadeck, ACM TOPLAS 13(2):181-210.
30 Building an Optimizing Compiler,
31 Robert Morgan, Butterworth-Heinemann, 1998, Section 8.9.
33 Advanced Compiler Design and Implementation,
34 Steven Muchnick, Morgan Kaufmann, 1997, Section 12.6 */
59 /* Possible lattice values. */
61 {
63 UNDEFINED,
64 UNKNOWN_VAL,
65 CONSTANT,
66 VARYING
69 /* Main structure for CCP. Contains the lattice value and, if it's a
70 constant, the constant value. */
72 {
73 latticevalue lattice_val;
74 tree const_val;
77 /* This is used to track the current value of each variable. */
81 /* Dump lattice value VAL to file OUTF prefixed by PREFIX. */
83 static void
85 {
87 {
103 }
104 }
107 /* Return a default value for variable VAR using the following rules:
109 1- Function arguments are considered VARYING.
111 2- Global and static variables that are declared constant are
112 considered CONSTANT.
114 3- Any other virtually defined variable is considered UNKNOWN_VAL.
116 4- Any other value is considered UNDEFINED. This is useful when
117 considering PHI nodes. PHI arguments that are undefined do not
118 change the constant value of the PHI node, which allows for more
119 constants to be propagated. */
121 static value
123 {
124 value val;
125 tree sym;
129 else
130 {
133 }
141 {
144 }
146 {
147 /* Function arguments and volatile variables are considered VARYING. */
149 }
151 {
152 /* Globals and static variables are considered UNKNOWN_VAL,
153 unless they are declared 'const'. */
157 {
160 }
161 else
162 {
165 }
166 }
168 {
171 }
172 else
173 {
178 {
182 }
183 }
186 }
188 /* Get the constant value associated with variable VAR. */
192 {
202 }
205 /* Set the lattice value for variable VAR to VAL. Return true if VAL
206 is different from VAR's previous value. */
208 static bool
210 {
214 {
215 /* CONSTANT->UNDEFINED is never a valid state transition. */
218 /* UNKNOWN_VAL->UNDEFINED is never a valid state transition. */
221 /* VARYING->UNDEFINED is generally not a valid state transition,
222 except for values which are initialized to VARYING. */
225 }
227 /* VARYING -> CONSTANT is an invalid state transition, except
228 for objects which start off in a VARYING state. */
232 /* If the constant for VAR has changed, then this VAR is really varying. */
236 {
239 }
242 {
244 {
247 }
251 }
254 }
257 /* Set the lattice value for the variable VAR to VARYING. */
259 static void
261 {
262 value val;
266 }
269 /* Return the likely latticevalue for STMT.
271 If STMT has no operands, then return CONSTANT.
273 Else if any operands of STMT are undefined, then return UNDEFINED.
275 Else if any operands of STMT are constants, then return CONSTANT.
277 Else return VARYING. */
279 static latticevalue
281 {
282 vuse_optype vuses;
284 stmt_ann_t ann;
285 tree use;
286 ssa_op_iter iter;
288 /* If the statement makes aliased loads or has volatile operands, it
289 won't fold to a constant value. */
294 /* A CALL_EXPR is assumed to be varying. This may be overly conservative,
295 in the presence of const and pure calls. */
302 {
310 }
315 {
322 /* There should be no VUSE operands that are UNDEFINED. */
327 }
330 }
333 /* Function indicating whether we ought to include information for VAR
334 when calculating immediate uses. */
336 static bool
338 {
340 }
343 /* Initialize local data structures for CCP. */
345 static void
347 {
348 basic_block bb;
349 sbitmap is_may_def;
354 /* Set of SSA_NAMEs that are defined by a V_MAY_DEF. */
358 /* Initialize simulation flags for PHI nodes and statements. */
360 {
361 block_stmt_iterator i;
363 /* Mark all V_MAY_DEF operands VARYING. */
365 {
368 ssa_op_iter iter;
369 tree def;
373 /* Get the default value for each DEF and V_MUST_DEF. */
376 {
379 }
381 /* Mark all V_MAY_DEF operands VARYING. */
383 {
386 }
388 /* Statements other than MODIFY_EXPR, COND_EXPR and
389 SWITCH_EXPR are not interesting for constant propagation.
390 Mark them VARYING. */
397 }
398 }
400 /* Now process PHI nodes. */
402 {
407 {
411 {
414 /* If one argument has a V_MAY_DEF, the result is
415 VARYING. */
417 {
419 {
423 }
424 }
425 }
428 }
429 }
433 /* Compute immediate uses for variables we care about. */
435 }
438 /* Replace USE references in statement STMT with their immediate reaching
439 definition. Return true if at least one reference was replaced. If
440 REPLACED_ADDRESSES_P is given, it will be set to true if an address
441 constant was replaced. */
443 static bool
445 {
447 use_operand_p use;
448 ssa_op_iter iter;
456 {
472 }
475 }
478 /* Replace the VUSE references in statement STMT with its immediate reaching
479 definition. Return true if the reference was replaced. If
480 REPLACED_ADDRESSES_P is given, it will be set to true if an address
481 constant was replaced. */
483 static bool
485 {
487 vuse_optype vuses;
488 use_operand_p vuse;
508 {
514 }
517 }
520 /* Perform final substitution and folding. After this pass the program
521 should still be in SSA form. */
523 static void
525 {
526 basic_block bb;
533 /* Substitute constants in every statement of every basic block. */
535 {
536 block_stmt_iterator i;
537 tree phi;
539 /* Propagate our known constants into PHI nodes. */
541 {
545 {
557 }
558 }
561 {
565 /* Skip statements that have been folded already. */
569 /* Replace the statement with its folded version and mark it
570 folded. */
572 {
575 }
579 {
582 /* If we folded a builtin function, we'll likely
583 need to rename VDEFs. */
585 {
589 }
590 else
592 }
595 {
599 }
600 }
601 }
603 /* And transfer what we learned from VALUE_VECTOR into the
604 SSA_NAMEs themselves. This probably isn't terribly important
605 since we probably constant propagated the values to their
606 use sites above. */
608 {
620 }
621 }
624 /* Free allocated storage. */
626 static void
628 {
629 /* Perform substitutions based on the known constant values. */
633 }
637 /* Compute the meet operator between VAL1 and VAL2:
639 any M UNDEFINED = any
640 any M VARYING = VARYING
641 any M UNKNOWN_VAL = UNKNOWN_VAL
642 Ci M Cj = Ci if (i == j)
643 Ci M Cj = VARYING if (i != j) */
644 static value
646 {
647 value result;
649 /* any M UNDEFINED = any. */
655 /* any M VARYING = VARYING. */
657 {
661 }
663 /* any M UNKNOWN_VAL = UNKNOWN_VAL. */
666 {
670 }
672 /* Ci M Cj = Ci if (i == j)
673 Ci M Cj = VARYING if (i != j) */
675 {
678 }
679 else
680 {
683 }
686 }
689 /* Loop through the PHI_NODE's parameters for BLOCK and compare their
690 lattice values to determine PHI_NODE's lattice value. The value of a
691 PHI node is determined calling ccp_lattice_meet() with all the arguments
692 of the PHI node that are incoming via executable edges. */
694 static enum ssa_prop_result
696 {
701 {
704 }
708 {
717 /* To avoid the default value of UNKNOWN_VAL overriding
718 that of its possible constant arguments, temporarily
719 set the PHI node's default lattice value to be
720 UNDEFINED. If the PHI node's old value was UNKNOWN_VAL and
721 the new value is UNDEFINED, then we prevent the invalid
722 transition by not calling set_lattice_value. */
735 }
738 {
739 /* Compute the meet operator over all the PHI arguments. */
743 {
748 }
750 /* If the incoming edge is executable, Compute the meet operator for
751 the existing value of the PHI node and the current PHI argument. */
753 {
758 {
762 }
763 else
769 {
774 }
778 }
779 }
782 {
785 }
787 /* Check for an invalid change from UNKNOWN_VAL to UNDEFINED. */
792 /* Otherwise, make the transition to the new value. */
794 {
797 else
799 }
800 else
802 }
805 /* CCP specific front-end to the non-destructive constant folding
806 routines.
808 Attempt to simplify the RHS of STMT knowing that one or more
809 operands are constants.
811 If simplification is possible, return the simplified RHS,
812 otherwise return the original RHS. */
814 static tree
816 {
821 vuse_optype vuses;
825 /* If the RHS is just a variable, then that variable must now have
826 a constant value that we can return directly. */
834 /* Unary operators. Note that we know the single operand must
835 be a constant. So this should almost always return a
836 simplified RHS. */
838 {
839 /* Handle unary operators which can appear in GIMPLE form. */
842 /* Simplify the operand down to a constant. */
844 {
848 }
852 /* If we folded, but did not create an invariant, then we can not
853 use this expression. */
857 /* If we could not fold the expression, but the arguments are all
858 constants and gimple values, then build and return the new
859 expression.
861 In some cases the new expression is still something we can
862 use as a replacement for an argument. This happens with
863 NOP conversions of types for example.
865 In other cases the new expression can not be used as a
866 replacement for an argument (as it would create non-gimple
867 code). But the new expression can still be used to derive
868 other constants. */
871 }
873 /* Binary and comparison operators. We know one or both of the
874 operands are constants. */
880 {
881 /* Handle binary and comparison operators that can appear in
882 GIMPLE form. */
886 /* Simplify the operands down to constants when appropriate. */
888 {
892 }
895 {
899 }
903 /* If we folded, but did not create an invariant, then we can not
904 use this expression. */
908 /* If we could not fold the expression, but the arguments are all
909 constants and gimple values, then build and return the new
910 expression.
912 In some cases the new expression is still something we can
913 use as a replacement for an argument. This happens with
914 NOP conversions of types for example.
916 In other cases the new expression can not be used as a
917 replacement for an argument (as it would create non-gimple
918 code). But the new expression can still be used to derive
919 other constants. */
924 }
926 /* We may be able to fold away calls to builtin functions if their
927 arguments are constants. */
933 {
936 {
940 /* Preserve the original values of every operand. */
945 /* Substitute operands with their values and try to fold. */
949 /* Restore operands to their original form. */
953 }
954 }
955 else
958 /* If we got a simplified form, see if we need to convert its type. */
962 /* No simplification was possible. */
964 }
967 /* Evaluate statement STMT. */
969 static value
971 {
972 value val;
973 tree simplified;
976 /* If the statement is likely to have a CONSTANT result, then try
977 to fold the statement to determine the constant value. */
980 /* If the statement is likely to have a VARYING result, then do not
981 bother folding the statement. */
984 /* Otherwise the statement is likely to have an UNDEFINED value and
985 there will be nothing to do. */
986 else
990 {
991 /* The statement produced a constant value. */
994 }
995 else
996 {
997 /* The statement produced a nonconstant value. If the statement
998 had undefined or virtual operands, then the result of the
999 statement should be undefined or virtual respectively.
1000 Else the result of the statement is VARYING. */
1005 }
1008 }
1011 /* Visit the assignment statement STMT. Set the value of its LHS to the
1012 value computed by the RHS and store LHS in *OUTPUT_P. */
1014 static enum ssa_prop_result
1016 {
1017 value val;
1019 vuse_optype vuses;
1020 v_must_def_optype v_must_defs;
1031 /* We require the SSA version number of the lhs for the value_vector.
1032 Make sure we have it. */
1034 {
1035 /* If we make it here, then stmt only has one definition:
1036 a V_MUST_DEF. */
1038 }
1041 {
1042 /* For a simple copy operation, we copy the lattice values. */
1045 }
1049 {
1050 /* Same as above, but the rhs is not a gimple register and yet
1051 has a known VUSE. */
1054 }
1055 else
1056 {
1057 /* Evaluate the statement. */
1059 }
1061 /* FIXME: Hack. If this was a definition of a bitfield, we need to widen
1062 the constant value into the type of the destination variable. This
1063 should not be necessary if GCC represented bitfields properly. */
1064 {
1069 {
1074 else
1075 {
1078 }
1079 }
1080 }
1082 /* If LHS is not a gimple register, then it cannot take on an
1083 UNDEFINED value. */
1088 /* Set the lattice value of the statement's output. */
1090 {
1094 else
1096 }
1097 else
1099 }
1102 /* Visit the conditional statement STMT. Return SSA_PROP_INTERESTING
1103 if it can determine which edge will be taken. Otherwise, return
1104 SSA_PROP_VARYING. */
1106 static enum ssa_prop_result
1108 {
1109 value val;
1110 basic_block block;
1115 /* Find which edge out of the conditional block will be taken and add it
1116 to the worklist. If no single edge can be determined statically,
1117 return SSA_PROP_VARYING to feed all the outgoing edges to the
1118 propagation engine. */
1122 else
1124 }
1127 /* Evaluate statement STMT. If the statement produces an output value and
1128 its evaluation changes the lattice value of its output, return
1129 SSA_PROP_INTERESTING and set *OUTPUT_P to the SSA_NAME holding the
1130 output value.
1132 If STMT is a conditional branch and we can determine its truth
1133 value, set *TAKEN_EDGE_P accordingly. If STMT produces a varying
1134 value, return SSA_PROP_VARYING. */
1136 static enum ssa_prop_result
1138 {
1139 stmt_ann_t ann;
1140 v_may_def_optype v_may_defs;
1141 v_must_def_optype v_must_defs;
1142 tree def;
1143 ssa_op_iter iter;
1146 {
1150 }
1160 {
1161 /* If the statement is an assignment that produces a single
1162 output value, evaluate its RHS to see if the lattice value of
1163 its output has changed. */
1165 }
1167 {
1168 /* If STMT is a conditional branch, see if we can determine
1169 which branch will be taken. */
1171 }
1173 /* Any other kind of statement is not interesting for constant
1174 propagation and, therefore, not worth simulating. */
1178 /* Definitions made by statements other than assignments to
1179 SSA_NAMEs represent unknown modifications to their outputs.
1180 Mark them VARYING. */
1184 /* Mark all V_MAY_DEF operands VARYING. */
1189 }
1192 /* Main entry point for SSA Conditional Constant Propagation.
1194 [ DESCRIBE MAIN ALGORITHM HERE ] */
1196 static void
1198 {
1202 }
1205 static bool
1207 {
1209 }
1213 {
1229 };
1232 /* Given a constant value VAL for bitfield FIELD, and a destination
1233 variable VAR, return VAL appropriately widened to fit into VAR. If
1234 FIELD is wider than HOST_WIDE_INT, NULL is returned. */
1236 tree
1238 {
1240 tree wide_val;
1244 /* We can only do this if the size of the type and field and VAL are
1245 all constants representable in HOST_WIDE_INT. */
1254 /* Give up if either the bitfield or the variable are too wide. */
1260 /* If the sign bit of the value is not set or the field's type is unsigned,
1261 just mask off the high order bits of the value. */
1264 {
1265 /* Zero extension. Build a mask with the lower 'field_size' bits
1266 set and a BIT_AND_EXPR node to clear the high order bits of
1267 the value. */
1274 }
1275 else
1276 {
1277 /* Sign extension. Create a mask with the upper 'field_size'
1278 bits set and a BIT_IOR_EXPR to set the high order bits of the
1279 value. */
1286 }
1289 }
1292 /* A subroutine of fold_stmt_r. Attempts to fold *(A+O) to A[X].
1293 BASE is an array type. OFFSET is a byte displacement. ORIG_TYPE
1294 is the desired result type. */
1296 static tree
1298 {
1302 /* If BASE is an ARRAY_REF, we can pick up another offset (this time
1303 measured in units of the size of elements type) from that ARRAY_REF).
1304 We can't do anything if either is variable.
1306 The case we handle here is *(&A[N]+O). */
1308 {
1318 }
1320 /* Ignore stupid user tricks of indexing non-array variables. */
1328 /* If OFFSET and ELT_OFFSET are zero, we don't care about the size of the
1329 element type (so we can use the alignment if it's not constant).
1330 Otherwise, compute the offset as an index by using a division. If the
1331 division isn't exact, then don't do anything. */
1334 {
1339 }
1340 else
1341 {
1356 }
1358 /* Assume the low bound is zero. If there is a domain type, get the
1359 low bound, if any, convert the index into that type, and add the
1360 low bound. */
1363 {
1366 else
1374 }
1384 }
1387 /* A subroutine of fold_stmt_r. Attempts to fold *(S+O) to S.X.
1388 BASE is a record type. OFFSET is a byte displacement. ORIG_TYPE
1389 is the desired result type. */
1390 /* ??? This doesn't handle class inheritance. */
1392 static tree
1395 {
1403 /* Short-circuit silly cases. */
1409 {
1421 /* ??? Java creates "interesting" fields for representing base classes.
1422 They have no name, and have no context. With no context, we get into
1423 trouble with nonoverlapping_component_refs_p. Skip them. */
1427 /* The previous array field isn't at the end. */
1430 /* Check to see if this offset overlaps with the field. */
1437 {
1438 /* Don't care about offsets into the middle of scalars. */
1442 /* Check for array at the end of the struct. This is often
1443 used as for flexible array members. We should be able to
1444 turn this into an array access anyway. */
1448 /* Check the end of the field against the offset. */
1456 /* If we matched, then set offset to the displacement into
1457 this field. */
1459 }
1461 /* Here we exactly match the offset being checked. If the types match,
1462 then we can return that field. */
1464 {
1469 }
1471 /* Don't care about type-punning of scalars. */
1476 }
1484 found:
1485 /* If we get here, we've got an aggregate field, and a possibly
1486 nonzero offset into them. Recurse and hope for a valid match. */
1496 }
1499 /* A subroutine of fold_stmt_r. Attempt to simplify *(BASE+OFFSET).
1500 Return the simplified expression, or NULL if nothing could be done. */
1502 static tree
1504 {
1505 tree t;
1507 /* We may well have constructed a double-nested PLUS_EXPR via multiple
1508 substitutions. Fold that down to one. Remove NON_LVALUE_EXPRs that
1509 are sometimes added. */
1514 /* One possibility is that the address reduces to a string constant. */
1519 /* Add in any offset from a PLUS_EXPR. */
1521 {
1522 tree offset2;
1530 }
1533 {
1534 /* Strip the ADDR_EXPR. */
1537 /* Fold away CONST_DECL to its value, if the type is scalar. */
1542 /* Try folding *(&B+O) to B[X]. */
1547 /* Try folding *(&B+O) to B.X. */
1553 /* Fold *&B to B. We can only do this if EXPR is the same type
1554 as BASE. We can't do this if EXPR is the element type of an array
1555 and BASE is the array. */
1560 }
1561 else
1562 {
1563 /* We can get here for out-of-range string constant accesses,
1564 such as "_"[3]. Bail out of the entire substitution search
1565 and arrange for the entire statement to be replaced by a
1566 call to __builtin_trap. In all likelyhood this will all be
1567 constant-folded away, but in the meantime we can't leave with
1568 something that get_expr_operands can't understand. */
1574 {
1575 /* FIXME: Except that this causes problems elsewhere with dead
1576 code not being deleted, and we abort in the rtl expanders
1577 because we failed to remove some ssa_name. In the meantime,
1578 just return zero. */
1579 /* FIXME2: This condition should be signaled by
1580 fold_read_from_constant_string directly, rather than
1581 re-checking for it here. */
1583 }
1585 /* Try folding *(B+O) to B->X. Still an improvement. */
1587 {
1593 }
1594 }
1596 /* Otherwise we had an offset that we could not simplify. */
1598 }
1601 /* A subroutine of fold_stmt_r. EXPR is a PLUS_EXPR.
1603 A quaint feature extant in our address arithmetic is that there
1604 can be hidden type changes here. The type of the result need
1605 not be the same as the type of the input pointer.
1607 What we're after here is an expression of the form
1608 (T *)(&array + const)
1609 where the cast doesn't actually exist, but is implicit in the
1610 type of the PLUS_EXPR. We'd like to turn this into
1611 &array[x]
1612 which may be able to propagate further. */
1614 static tree
1616 {
1620 tree ptd_type;
1621 tree t;
1624 /* We're only interested in pointer arithmetic. */
1627 /* Canonicalize the integral operand to op1. */
1629 {
1633 }
1634 /* It had better be a constant. */
1637 /* The first operand should be an ADDR_EXPR. */
1642 /* If the first operand is an ARRAY_REF, expand it so that we can fold
1643 the offset into it. */
1645 {
1650 tree min_idx;
1657 /* Un-bias the index by the min index of the array type. */
1660 {
1663 {
1671 }
1672 }
1674 /* Convert the index to a byte offset. */
1678 /* Update the operands for the next round, or for folding. */
1679 /* If we're manipulating unsigned types, then folding into negative
1680 values can produce incorrect results. Particularly if the type
1681 is smaller than the width of the pointer. */
1690 }
1692 /* If we weren't able to fold the subtraction into another array reference,
1693 canonicalize the integer for passing to the array and component ref
1694 simplification functions. */
1696 {
1700 /* ??? In theory fold should always produce another integer. */
1703 }
1707 /* At which point we can try some of the same things as for indirects. */
1716 }
1719 /* Subroutine of fold_stmt called via walk_tree. We perform several
1720 simplifications of EXPR_P, mostly having to do with pointer arithmetic. */
1722 static tree
1724 {
1728 /* ??? It'd be nice if walk_tree had a pre-order option. */
1730 {
1738 integer_zero_node);
1741 /* ??? Could handle ARRAY_REF here, as a variant of INDIRECT_REF.
1742 We'd only want to bother decomposing an existing ARRAY_REF if
1743 the base array is found to have another offset contained within.
1744 Otherwise we'd be wasting time. */
1752 /* Set TREE_INVARIANT properly so that the value is properly
1753 considered constant, and so gets propagated as expected. */
1777 /* Make sure the FIELD_DECL is actually a field in the type on the lhs.
1778 We've already checked that the records are compatible, so we should
1779 come up with a set of compatible fields. */
1780 {
1785 {
1788 }
1789 }
1794 }
1797 {
1800 }
1803 }
1806 /* Return the string length of ARG in LENGTH. If ARG is an SSA name variable,
1807 follow its use-def chains. If LENGTH is not NULL and its value is not
1808 equal to the length we determine, or if we are unable to determine the
1809 length, return false. VISITED is a bitmap of visited variables. */
1811 static bool
1813 {
1817 {
1827 }
1829 /* If we were already here, break the infinite cycle. */
1838 {
1840 {
1843 /* The RHS of the statement defining VAR must either have a
1844 constant length or come from another SSA_NAME with a constant
1845 length. */
1851 /* See if the RHS is a constant length. */
1854 {
1860 }
1863 }
1866 {
1867 /* All the arguments of the PHI node must have the same constant
1868 length. */
1872 {
1875 /* If this PHI has itself as an argument, we cannot
1876 determine the string length of this argument. However,
1877 if we can find a constant string length for the other
1878 PHI args then we can still be sure that this is a
1879 constant string length. So be optimistic and just
1880 continue with the next argument. */
1886 }
1889 }
1893 }
1897 }
1900 /* Fold builtin call FN in statement STMT. If it cannot be folded into a
1901 constant, return NULL_TREE. Otherwise, return its constant value. */
1903 static tree
1905 {
1909 bitmap visited;
1914 /* First try the generic builtin folder. If that succeeds, return the
1915 result directly. */
1918 {
1922 }
1924 /* Ignore MD builtins. */
1929 /* If the builtin could not be folded, and it has no argument list,
1930 we're done. */
1935 /* Limit the work only for builtins we know how to simplify. */
1937 {
1949 }
1951 /* Try to use the dataflow information gathered by the CCP process. */
1956 strlen_arg;
1959 {
1963 }
1969 {
1972 {
1975 /* If the result is not a valid gimple value, or not a cast
1976 of a valid gimple value, then we can not use the result. */
1981 }
2008 }
2013 }
2016 /* Fold the statement pointed by STMT_P. In some cases, this function may
2017 replace the whole statement with a new one. Returns true iff folding
2018 makes any changes. */
2020 bool
2022 {
2028 /* If we replaced constants and the statement makes pointer dereferences,
2029 then we may need to fold instances of *&VAR into VAR, etc. */
2031 {
2032 *stmt_p
2034 NULL);
2036 }
2044 {
2045 tree callee;
2047 /* Check for builtins that CCP can handle using information not
2048 available in the generic fold routines. */
2052 else
2053 {
2054 /* Check for resolvable OBJ_TYPE_REF. The only sorts we can resolve
2055 here are when we've propagated the address of a decl into the
2056 object slot. */
2057 /* ??? Should perhaps do this in fold proper. However, doing it
2058 there requires that we create a new CALL_EXPR, and that requires
2059 copying EH region info to the new node. Easier to just do it
2060 here where we can just smash the call operand. */
2067 {
2068 tree t;
2070 /* ??? Caution: Broken ADDR_EXPR semantics means that
2071 looking at the type of the operand of the addr_expr
2072 can yield an array type. See silly exception in
2073 check_pointer_types_r. */
2078 {
2081 }
2082 }
2083 }
2084 }
2086 /* If we couldn't fold the RHS, hand over to the generic fold routines. */
2090 /* Strip away useless type conversions. Both the NON_LVALUE_EXPR that
2091 may have been added by fold, and "useless" type conversions that might
2092 now be apparent due to propagation. */
2099 }
2101 \f
2102 /* Convert EXPR into a GIMPLE value suitable for substitution on the
2103 RHS of an assignment. Insert the necessary statements before
2104 iterator *SI_P. */
2106 static tree
2108 {
2109 tree_stmt_iterator ti;
2117 /* The replacement can expose previously unreferenced variables. */
2119 {
2122 }
2130 }
2133 /* A simple pass that attempts to fold all builtin functions. This pass
2134 is run after we've propagated as many constants as we can. */
2136 static void
2138 {
2140 basic_block bb;
2142 {
2143 block_stmt_iterator i;
2145 {
2159 {
2161 /* Resolve __builtin_constant_p. If it hasn't been
2162 folded to integer_one_node by now, it's fairly
2163 certain that the value simply isn't constant. */
2169 }
2172 {
2175 }
2178 {
2182 }
2189 {
2193 }
2194 }
2195 }
2197 /* Delete unreachable blocks. */
2200 }
2204 {
2216 TODO_dump_func
2217 | TODO_verify_ssa
2220 };